Electrochemical data, physical characterizations, and DFT calculations
Reason: There are copyright issues and some figures are going to be published.
Supporting data for "STUDIES OF APROTIC SODIUM-OXYGEN BATTERIES: SUPEROXIDE DEGRADATION KINETICS AND DESIGN OF CATHODE MATERIALS"
dataset
posted on 2021-08-25, 07:51authored byBin Qin
This dataset contains the raw/processed data for the studies of sodium-oxygen batteries. It contains four major parts: (1) NaO2 degradation kinetics. This part devised a new method that integrates electrochemical techniques and mathematical modeling to study NaO2 degradation kinetics. (2) Modelling diffusion coupled degradation of NaO2. This part is a pure mathematical modeling work, it incorporates the influence of diffusion on NaO2 degradation. (3) HCMS carbon cathode. In this section, a highly mesoporous carbon HCMS is applied in Na-O2 batteries, the accelerated deradation of NaO2 in mesoporous electrode is observed. (4) Graphene foam cathode. In this part, graphene foam is used as cathode in Na-O2 batteries, outstanding performance is achieved.
Funding
National Natural Science Foundation of China (NSFC)/Research Grant council (RGC) of Hong Kong Joint Research Scheme under grant No: N_HKU728/17